2016
DOI: 10.2147/rie.s65134
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Toward rechargeable lithium–oxygen batteries: recent advances

Abstract: This review summarizes research and development trends in lithium-oxygen (Li-O 2 ) batteries. Development of a post-lithium-ion battery is highly expected to be a means to solve the global energy problem. The metal-oxygen cell, especially the Li-O 2 cell, attracts attention, since it has much larger theoretical energy density than conventional battery systems. First, this review discusses the energy density that a battery should have from the viewpoint of power sources for electric vehicles. Then the fundament… Show more

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(4 citation statements)
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“…Partial reduction of Ti 4+ into Ti 3+ culminates in electronic conduction, reducing the ionic transference number . Furthermore, the Ti 4+ /Ti 3+ reduction at a relatively low potential (1.6 V vs Li + /Li) also makes this material unstable in contact with metallic lithium electrodes. ,, Therefore, glass-ceramics with a Li 1+ x Al x ­Ge 2– x (PO 4 ) 3 composition emerge as an alternative to the former. They approach conductivities in the same order (10 –4 to 10 –3 S cm –1 ) ,,,, and present lower melting temperature for the raw oxides and greater stability against a lithium electrode …”
Section: Lithium Ion-containing Nasicon Glass-ceramicsmentioning
confidence: 99%
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“…Partial reduction of Ti 4+ into Ti 3+ culminates in electronic conduction, reducing the ionic transference number . Furthermore, the Ti 4+ /Ti 3+ reduction at a relatively low potential (1.6 V vs Li + /Li) also makes this material unstable in contact with metallic lithium electrodes. ,, Therefore, glass-ceramics with a Li 1+ x Al x ­Ge 2– x (PO 4 ) 3 composition emerge as an alternative to the former. They approach conductivities in the same order (10 –4 to 10 –3 S cm –1 ) ,,,, and present lower melting temperature for the raw oxides and greater stability against a lithium electrode …”
Section: Lithium Ion-containing Nasicon Glass-ceramicsmentioning
confidence: 99%
“…There are several possibilities for the cells’ construction, and different testing conditions are required by consequence. Some storage technologies use NASICON as an interlayer between the electrode and liquid electrolyte, since they successively block the reaction of these components by impeding their direct contact. , Several devices require the stability of NASICON in contact with water or aqueous solutions. ,, A considerable amount of research about NASICON glass-ceramics is, therefore, aimed at understanding their stability when in contact with different types of electrodes and aqueous and aprotic electrolytes. ,,, As examples, some studies have evaluated the production of cathode thin films such as LiCo 1– x B x O 2 (B = Mn, Ni) on the NASICON glass-ceramics. , There are reports focusing on the interface and degradation of NASICON with lithium electrode and liquid electrolytes. , The latter material demonstrated to be stable in a neutral medium but reactive in acid and basic electrolytes. Surface reactions occurring in acids caused a decrease in conductivity as a function of time, which is harmful for practical applications. ,, …”
Section: Lithium Ion-containing Nasicon Glass-ceramicsmentioning
confidence: 99%
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